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revisited’,
BioScience,
vol. 41, 1991, pp. 631–4.
Sarkar, S., ‘Biological information: a skeptical look at some central dogmas of molecular biology’, in S. Sarkar (ed.),
The Philosophy and History of Molecular Biology: New Perspectives,
Dordrecht, Kluwer, 1996a, pp. 187–231.
Sarkar, S., ‘Decoding “coding” – information and DNA’,
BioScience,
vol. 46, 1996b, pp. 857–64.
Sarkar, S., ‘Information in genetics and developmental biology: Comments on Maynard Smith’,
Philosophy of Science,
vol. 67, 2000, pp. 208–13.
Sarkar, S., ‘Erwin Schrödinger’s excursus on genetics’, in O. Harman and M. R. Dietrich (eds),
Outsider Scientists: Routes to Innovation in Biology,
Chicago, Chicago University Press, 2013, pp. 93–109.
Sasidharan, R. and Gerstein, M., ‘Genomics: Protein fossils live on as RNA’,
Nature,
vol. 453, 2008, pp. 729–31.
Sayre, A.,
Rosalind Franklin and DNA,
London, Norton, 1975.
Schaffner, K., ‘Logic of discovery and justification in regulatory genetics’,
Studies in History and Philosophy of Science,
vol. 4, 1974, pp. 349–85.
Schlatter, M. and Aizawa, K., ‘Walter Pitts and “A Logical Calculus”’,
Synthese,
vol. 162, 2008, pp. 235–50.
Schmucker D., Clemens, J. C., Shu, H.
et al., ‘Drosophila
Dscam is an axon guidance receptor exhibiting extraordinary molecular diversity’,
Cell,
vol. 101, 2000, pp. 671–84.
Schneider, T. D., Stormo, G. D., Gold, L. and Ehrenfeucht, A., ‘Information content of binding sites on nucleotide sequences’,
Journal of Molecular Biology,
vol. 188, 1986, pp. 415–31.
Schrödinger, E.,
What is Life?
, Cambridge, Cambridge University Press, 2000.
Schultz, J., ‘Aspects of the relation between genes and development in
Drosophila‘, The American Naturalist,
vol. 69, 1935, pp. 30–54.
Schultz, J., ‘The evidence of the nucleoprotein nature of the gene’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 9, 1941, pp. 55–65.
Schultz, J., ‘The nature of heterochromatin’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 12, 1947, pp. 179–91.
Schuster, S. C., ‘Next-generation sequencing transforms today’s biology’,
Nature Methods,
vol. 5, 2008, pp. 16–18.
Schwartz, D., ‘Speculations on gene action and protein specificity’,
Proceedings of the National Academy of Sciences USA,
vol. 41, 1955, pp. 300–7.
Schwartz, J.,
In Pursuit of the Gene: From Darwin to DNA,
Cambridge, MA, Harvard University Press, 2008.
Shama, L. N. S. and Wegner, K. W., ‘Grandparental effects in marine sticklebacks: transgenerational plasticity across multiple generations’,
Journal of Evolutionary Biology,
vol. 27, 2014, pp. 2297–307.
Shannon, C. E.,
An Algebra for Theoretical Genetics,
unpublished PhD thesis, Massachusetts Institute of Technology, 1940.
Shannon, C. E., ‘A mathematical theory of communication’,
The Bell System Technical Journal,
vol. 227, 1948a, pp. 379–423.
Shannon, C. E., ‘A mathematical theory of communication’,
The Bell System Technical Journal,
vol. 227, 1948b, pp. 623–56.
Shannon, C. E. and Weaver, W.,
The Mathematical Theory of Communication,
Urbana, University of Illinois Press, 1949.
Shapiro, B. and Hofreiter, M., ‘A paleogenomic perspective on evolution and gene function: new insights from ancient DNA’,
Science,
vol. 343, 2014, article 1236573.
Shapiro, J. A., ‘Revisiting the Central Dogma in the twenty-first century’,
Annals of the New York Academy of Sciences,
vol. 1178, 2009, pp. 6–28.
shCherbak, V. I. and Makukov, M. A., ‘The “Wow! signal” of the terrestrial genetic code’,
Icarus,
vol. 224, 2013, pp. 228–42.
Shea, N., ‘What’s transmitted? Inherited information’,
Biology and Philosophy,
vol. 26, 2011, pp. 183–9.
Shen, P. S., Park, J., Qin, Y.,
et al.,
‘Rqc2p and 60S ribosomal subunits mediate mRNA-independent elongation of nascent chains’,
Science,
vol. 347, 2015, pp. 75–8.
Sheridan, C., ‘First CRISPR-Cas patent opens race to stake out intellectual property’,
Nature Biotechnology,
vol. 32, 2014, pp. 599–601.
Shine, I. and Wrobel, S.,
Thomas Hunt Morgan: Pioneer of Genetics,
Lexington, University of Kentucky Press, 1976.
Shreeve, J.,
The Genome War,
New York, Knopf, 2004.
Singer, M., ‘Leon Heppel and the early days of RNA biochemistry’,
Journal of Biological Chemistry,
vol. 278, 2003, pp. 47351–6.
Slater, E. C., ’1961 Moscow, USSR: The Fifth International Congress of Biochemistry’,
IUBMB Life,
vol. 55, 2003, pp. 185–7.
Sloan, P. R. and Fogel, B.,
Creating a Physical Biology. The Three-Man Paper and Early Molecular Biology,
London, University of Chicago Press, 2011.
Smith, Z. D., Chan, M. M., Humm, K. C.
et al.,
‘DNA methylation dynamics of the human preimplantation embryo’,
Nature,
vol. 511, 2014, pp. 611–15.
Sofyer, V. N., ‘The consequences of political dictatorship for Russian science’,
Nature Reviews Genetics,
vol. 2, 2001, pp. 723–9.
Söll, D., Ohtsuka, E., Jones, D. S.
et al.,
‘Studies on polynucleotides, XLIX. Stimulation of the binding of aminoacyl-sRNAs to ribosomes by ribotrinucleotides and a survey of codon assignments for 20 amino acids’,
Proceedings of the National Academy of Sciences USA,
vol. 54, 1965, pp. 1378–85.
Sonneborn, T. M., ‘Molecular biology of the gene’,
Science,
vol. 150, 1965, p. 1282.
Spetner, L. M., ‘Information transmission in evolution’,
IEEE Transactions on Information Theory,
vol. 14, 1968, pp. 3–6.
Speyer, J. F., Lengyel, P., Basilio, C. and Ochoa, S., ‘Synthetic polynucleotides and the amino acid code, II’,
Proceedings of the National Academy of Sciences USA,
vol. 48, 1962a, pp. 63–8.
Speyer, J. F., Lengyel, P., Basilio, C. and Ochoa, S., ‘Synthetic polynucleotides and the amino acid code, IV’,
Proceedings of the National Academy of Sciences USA,
vol. 48, 1962b, pp. 441–8.
Speyer, J. F., Lengyel, P., Basilio, C.
et al.,
‘Synthetic polynucleotides and the amino acid code’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 28, 1963, pp. 559–68.
Spiegelman, S., ‘Nuclear and cytoplasmic factors controlling enzymatic constitution’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 11, 1946, pp. 256–77.
Spiegelman, S. and Landman, O. E., ‘Genetics of microorganisms’,
Annual Review of Microbiology,
vol. 8, 1954, pp. 181–236.
Srinivasan, G., James, C. M. and Krzycki, J. A., ‘Pyrrolysine encoded by UAG in Archaea: charging of a UAG-decoding specialized tRNA’,
Science,
vol. 296, 2002, pp. 1459–62.
Stacey, M., ‘Bacterial nucleic acids and nucleoproteins’,
Symposia of the Society for Experimental Biology,
vol. 1, 1947, pp. 86–100.
Stamhuis, I. H., Meijer, O. G. and Zevenhuizen, E. J. A., ‘Hugo de Vries on heredity, 1889–1903. Statistics, Mendelian laws, pangenes, mutations’,
Isis,
vol. 90, 1999, pp. 238–67.
Stanley, W. M., ‘Isolation of a crystalline protein possessing the properties of tobacco-mosaic virus’,
Science,
vol. 81, 1935, pp. 644–5.
Stanley, W. M., ‘The “undiscovered” discovery’,
Archives of Environmental Health,
vol. 21, 1970, pp. 256–62.
Starck, S. R., Jiang, V., Pavon-Eternod, M.,
et al.,
‘Leucine-tRNA initiates at CUG start codons for protein synthesis and presentation by MHC class I’,
Science,
vol. 336, 2012, pp. 1719–23.
Stedman, E. and Stedman, E., ‘The function of deoxyribose-nucleic acid in the cell nucleus’,
Symposia of the Society for Experimental Biology,
vol. 1, 1947, pp. 232–51.
Stegmann, U. E., ‘The arbitrariness of the genetic code’,
Biology and Philosophy,
vol. 19, 2004, pp. 205–22.
Stegmann, U. E., ‘Genetic information as instructional content’,
Philosophy of Science,
vol. 72, 2005, pp. 425–43.
Stegmann, U. E., ‘DNA, inference, and information’,
British Journal for the Philosophy of Science,
vol. 60, 2009, pp. 1–17.
Stegmann, U. E., ‘Varieties of parity’,
Biology and Philosophy,
vol. 27, 2012, pp. 903–18.
Stegmann, U. E., ‘On the transmission sense of information’,
Biology and Philosophy,
vol. 28, 2013, pp. 141–4.
Stegmann, U. E., ‘‘Genetic coding’ reconsidered: an analysis of actual usage’,
British Journal for the Philosophy of Science,
2014a, in press.
Stegmann, U. E., ‘Causal control and genetic causation’,
Noûs,
vol. 48, 2014b, pp. 450–65.
Stent, G. S., ‘Genetic transcription’,
Proceedings of the Royal Society of London Series B,
vol. 164, 1966, pp. 181–97.
Stent, G. S., ‘That was the molecular biology that was’,
Science,
vol. 160, 1968a, pp. 390–5.
Stent, G. S., ‘Reply to Lamanna’,
Science,
vol. 160, 1968b, p. 1398.
Stent, G. S.,
Molecular Genetics: An Introductory Narrative,
San Francisco, Freeman, 1971.
Stent, G. S., ‘Prematurity and uniqueness in scientific discovery’,
Scientific American,
vol. 227 (12), 1972, pp. 84–93.
Stergachis, A. B., Haugen, E., Shafer. A.
et al.,
‘Exonic transcription factor binding directs codon choice and affects protein evolution’,
Science,
vol. 342, 2013, pp. 1367–72.
Stern, K. G., ‘Nucleoproteins and gene structure’,
Yale Journal of Biology and Medicine,
vol. 19, 1947, pp. 937–49.
Stevens, H.,
Life Out of Sequence: A Data-Driven History of Bioinformatics,
London, University of Chicago Press, 2013.
Strasser, B. J., ‘A world in one dimension: Linus Pauling, Francis Crick and the Central Dogma of molecular biology’,
History and Philosophy of the Life Sciences,
vol. 28, 2006, pp. 491–512.
Stretton, A. O. W., ‘The first sequence: Fred Sanger and insulin’,
Genetics,
vol. 162, 2002, pp. 527–32.
Sturtevant, A. H.,
A History of Genetics,
London, Harper, 1965.
Suárez-Díaz, E., ‘The long and winding road of molecular data in phylogenetic analysis’,
Journal of the History of Biology,
vol. 47, 2014, pp. 443–78.
Subak-Sharpe, H., Bürk, R. R., Crawford, L. V.
et al.,
‘An approach to evolutionary relationships of mammalian DNA viruses through analysis of the pattern of nearest neighbor base sequences’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 31, 1966, pp. 737–48.
Sueoka, N., Marmur, J. and Doty, P., ‘II. Dependence of the density of deoxyribonucleic acids on guanine-cytosine content’,
Nature,
vol. 183, 1959, pp. 1429–31.
Sulston, J. and Ferry, G.,
The Common Thread: Science, Politics, Ethics and the Human Genome,
London, Bantam, 2002.
Summers, W. C., ‘How bacteriophage came to be used by the phage group’,
Journal of the History of Biology,
vol. 26, 1993, pp. 255–67.
Supattapone, S. and Miller, M. B., ‘Cofactor involvement in prion propagation’, in W.-Q. Zou and P. Gambetti (eds),
Prions and Diseases: Volume 1, Physiology and Pathophysiology,
New York, Springer, 2013, pp. 93–105.
Šustar, P., ‘Crick’s notion of genetic information and the ‘central dogma’ of molecular biology’,
British Journal for the Philosophy of Science,
vol. 58, 2007, pp. 13–24.
Sutton, W. S., ‘On the morphology of the chromosome group in
Brachystola magna‘, Biological Bulletin,

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